1)G-bandG-带
1.G-bands and C-bands in 3 Species of Vespertilionidae;蝙蝠科三种蝙蝠的G-带和C-带
2.Analysis of Karyotype and G-band of Recessive White Feathered Broiler;隐性白羽肉鸡(农大系)的染色体核型和G-带分析
3.Analysis of G-band Fluctuation and Correspondence of G-banding Patterns to Chromomer Patterns in Barley;大麦G-带变动性以及与染色粒的一致性分析
英文短句/例句
1.Karyotypes and G-banding、C-banding Patterns of Tetraogallus;雪鸡的染色体核型与G-带、C-带分析
2.Comparison of Chromosome G-banded Patterns in Different Cultivars of Sorghum Vulgare Pers;高粱不同品种染色体G-带带型的比较
3.A study on karyotypes,G-bands and C-bands of Myotis fimbriatus毛腿鼠耳蝠的核型、G-带和C-带研究
4.C-banding and High Resolution G-banding of Northeastern Sika Deer (Cervus Nippon Hortulorum);东北梅花鹿染色体C-带和高分辨G-带研究
5.On the expected discounted penalty function for a Lévy risk process perturbed by diffusion;带扰动Lévy风险过程的G-S函数
6.The Geom/G/1 Queue with Single Vacation and Server Set-up Times;带有启动时间单重休假的Geom/G/1排队
7.The Geom/G/1 Queue With Multiple Vacation And Server Set-Up Times;多重休假的带启动期Geom/G/1排队
8.Research on Preprocessing Algorithm of G.722 Wideband Speech SignalG.722宽带音频预处理算法的研究
9.M/G/1 Queueing Systems with Negative Customers and Feedback带负顾客和反馈的M/G/1排队系统
10.An M~X/G/1 Queue with Multiple Vacation and Feedback带反馈的多重休假M~X/G/1排队
11.Ananlysis of the karyotype and G banding of chromosomes in Lushi green eggshell chicken卢氏绿壳蛋鸡染色体核型与G带分析
12.Objective To explore a modificatory method for diplaying chromosome G-banding.目的探讨提高染色体g显带效果的方法。
13.M/G/1 Retrial Queues with Two Types of Customers;带有两类顾客的M/G/1的重试排队模型
14.The Geom/G/1 Queue With Multiple Vacation and Server Set-Up/Close Times;多重休假的带启动——关闭期的Geom/G/1排队
15.The Closure Properties of Phase Type Distribution in Geom/G/1 Queue with Multiple Vacation and Server Set-Up Times;多重休假的带启动期的Geom/G/1排队的PH封闭性
16.The Procedure and the Value of G-banding, FISH and CGH Used in Prenatal DiagnosisG-显带、FISH、CGH在产前诊断中的应用程序及意义
17.The Geom~X/G/1 queue with single vacation and server set-up and close times单重休假的带启动期和关闭期的Geom~X/G/1排队
18.Application of G.723.1 for Baseband Digital Walkie-Talkie Baseband System Based on DSPG.723.1在基于DSP数字对讲机基带系统中应用
相关短句/例句
G-bandingG-带
1.Ananlysis on the karyotype and G-banding of chromosomes in He′nan large Tail Sheep;河南大尾寒羊染色体核型与G-带分析
2.The C-banding were pol-ymorphism,and the G-banding had no visible distinction than others.松辽黑猪的C-带具有多态性,G-带带型与其他家猪相比没有明显差异。
3.Methods of trypsase-EDTA and BSG (Barium hydroxide / Saline / Giemsa)were used for G-banding and C-banding respectively .(3)G-带分析表明,羊驼G带明暗相间,显现出不同的带纹。
3)G-bandG带
1.Study on Karyotype and G-band of Gushi Chicken;固始鸡核型、G带的研究
2.Analysis of Karyotype and Preparation of C-band and G-band in Schistosoma japonicum;日本血吸虫染色体核型分析及C带和G带的制备
3.By using the method of culturing peripheral blood lymphocyte and obtaining with Trypsin and Giemsa,G-band of Xianju chickens were investigated.采用外周血淋巴细胞培养和胰酶处理法,对仙居鸡染色体G带带型进行了研究。
4)G-banded patternG带
1.Studies on Jingding ducks karyotype and G-banded pattern;金定鸭的核型及G带带型研究
2.G-banded patterns were obtained with trypsin and Giemsa, and C-banded patterns were treated with barium hydroxide and Giemsa.本文共分为三个部分,第一部分以藏鸡、茶花鸡为实验材料,分别采用外周血淋巴细胞培养法、胰酶处理法、氢氧化钡处理法对2个地方鸡种进行核型、G带及C带分析;第二部分根据泰和鸡、鹿苑鸡、狼山鸡、萧山鸡、北京油鸡、藏鸡和茶花鸡共7个地方鸡种的核型资料,运用核型似近系数法进行聚类分析;第三部分利用荧光原位杂交技术对家鸡腺苷琥珀酸裂解酶(ADSL)基因进行染色体定位研究。
3.Xiaoshan chickens, Beijing fatty chickens and Langshan chickens) using the peripheral lymphocyte culture technique, G-banded patterns were obtained with trypsin and Giemsa, and C-banded patterns were treated with barium hydroxide and Giemsa.分别采用外周血淋巴细胞培养法、胰酶处理法、氢氧化钡处理法对3个地方鸡种(萧山鸡、北京油鸡和狼山鸡)的核型及G带和C带进行分析,研究结果表明: ① 外周血淋巴细胞培养法适用于禽类染色体的制备,这为禽类染色体的制备提供了又一途径。
5)G-bandsG带
1.Study on Henan Game Chicken’s Karyotype and G-bands;河南斗鸡染色体核型及G带的研究
2.Studies on G-bands and Ag-NORs of Pacific oyster,Crassostrea gigas;太平洋牡蛎染色体G带和Ag-NORs研究
3.Studies on Karyotypes and G-bands of the Hybrids of Genus Ribes;茶子属(Ribes)杂种植株的核型及其G带技术研究
6)G-bandingG带
1.The mitotic chromosome karyotypes and G-banding were studied.采用加热干燥涂片法对斯氏按蚊的有丝分裂染色体核型、G带进行了研究。
2.Their fittest condition of culture for C-banding, G-banding and siver staining were found .本试验以贵州地方品种高坡猪作试验组,剑白香猪Ⅰ系作对照组,应用外周血淋巴细胞培养技术,摸索出外周血淋巴细胞培养其染色体核型、C带、G带和Ag-NORs带的最佳条件,讨论其共性和差异性,为高坡猪的开发利用及保种提供基础材料,试验结果如下:1。
3.G-banding karyotypes and silver-stained SCs in surface-spread pachytene nuclei from the male vole (2n=51, the presumptive Robert-sonian heterozygotes) were studied by the means of light and electron microscopes, respectively.然后对2n=51个体进行染色体G带及精母细胞联会复合体电镜研究。
延伸阅读
"带形城市" 一种主张城市平面布局呈狭长带状发展的规划理论。"带形城市"的规划原则是以交通干线作为城市布局的主脊骨骼;城市的生活用地和生产用地,平行地沿着交通干线布置(图1);大部分居民日常上下班都横向地来往于相应的居住区和工业区之间。交通干线一般为汽车道路或铁路,也可以辅以河道。城市继续发展,可以沿着交通干线(纵向)不断延伸出去。带形城市由于横向宽度有一定限度,因此居民同乡村自然界非常接近。纵向延绵地发展,也有利于市政设施的建设。带形城市也较易于防止由于城市规模扩大而过分集中,导致城市环境恶化。 较有系统的带形城市构想,最早是西班牙工程师A.索里亚·伊·马塔在1882年提出的。他认为有轨运输系统最为经济、便利和迅速,因此城市应沿着交通线绵延地建设。这样的带形城市可将原有的城镇联系起来,组成城市的网络,不仅使城市居民便于接触自然,也能把文明设施带到乡村。1892年,索里亚为了实现他的理想,在马德里郊区设计一条有轨交通线路,把两个原有的镇连接起来,构成一个弧状的带形城市(图2),离马德里市中心约5公里。1901年铁路建成,1909年改为电车。经过多年经营,到1912年约有居民4000人。虽然索里亚规划建设的带形城市,实质上只是一个城郊的居住区,后来由于土地使用等原因,这座带形城市向横向发展,面貌失真。但是,带形城市理论影响却深远。 苏联在20年代建设斯大林格勒时,采用了带形城市规划方案。城市的主要用地布置于铁路两侧,靠近铁路的是工业区。工业区的另一侧是绿地,然后是生活居住用地。生活居住用地外侧则为农业地带。带形城市理论可以同其他布局结构形式结合应用,取长补短。几十年来,世界各国不少城市汲取带形城市的优点,在城市规划中部分地或加以修正地运用。
